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The data center industry is evolving at an extraordinary pace, with significant legislative, technological, and infrastructure developments reshaping the landscape. From groundbreaking investments in cutting-edge facilities to ambitious projects aiming to redefine energy sourcing for data centers, the latest news highlights a dynamic shift in priorities for companies worldwide. We break down a concise summary of critical data center news updates from around the country including Florida, Virginia, Missouri, and Texas. State of Florida to end sales tax break for sub-100 MW data centers The Florida legislature has passed HB 7031 , effective August 1, 2025, which ends the sales tax exemption for data centers with a critical IT load below 100 MW. This change impacts existing sub-100 MW data centers, tenants, and contractors, as they will now be required to pay state and local sales tax (typically 6%-7.5%) on equipment, materials, and electricity. The exemption's removal may affect ongoing operations, construction costs, tenant agreements, and financial valuations of these assets. The legislation's lack of a grandfathering clause means sub-100 MW data centers currently under construction or operation must comply after their next five-year review, potentially leading to lease breaches, higher development costs, and operational challenges. Although discussions might continue in future legislative sessions, immediate concerns remain for affected parties, who should review contracts and agreements to mitigate risks. Meta seeks $29 billion from private capital firms to fund AI data centers Meta  is seeking $29 billion to fund its expansive AI data center  initiatives, with plans to raise $26 billion in debt and $3 billion in equity from firms like Apollo Global Management and KKR. This move comes as Meta faces delays in releasing its flagship Llama 4 AI model and shifts focus to building "superintelligence" by recruiting top AI talent from competitors, reportedly offering $100 million starting packages. The company's capital expenditure estimate for the year has surged to $72 billion, reflecting growing infrastructure investments and tariff adjustments. Competitors like Amazon and OpenAI are also ramping up efforts to build massive AI data centers, intensifying the race for dominance in AI infrastructure. Meta's ambitious investments illustrate its drive to stay ahead in AI innovation and supercomputing capabilities. Edgecore Digital announces $17 billion investment for a 1.1+ GW data center in Louisa County, Virginia EdgeCore Digital Infrastructure  has announced a significant investment of over $17 billion in Louisa County, Virginia, to develop a 1.1+ gigawatt high-density data center campus spanning 3.9 million square feet. The development, located on 697 acres in the Shannon Hill Regional Business Park, will contribute to Central Virginia’s economic growth by providing scalable data center solutions for hyperscale and AI-focused customers. This project is expected to generate local tax revenue, create jobs, and ensure minimal environmental impact with advanced technologies like a closed-loop air-cooled system for efficient water usage. EdgeCore emphasizes a community-first approach, drawing on best practices from its other campuses and committing to being a valuable partner to Louisa County. This addition expands EdgeCore’s active market presence to six key locations, including Ashburn, Silicon Valley, and Greater Phoenix. Project ‘Kestrel’ announces 6 data centers in Kansas City with developers Shenandoah Computing LLC A new large-scale development project called "Project Kestrel"  is proposed near Kansas City International Airport. The plan includes six data centers built over 20 years on 380 acres at Missouri Highway 92 and N. Winan Avenue. The developer, Shenandoah Computing LLC, is seeking $100 billion in conduit bonds along with tax exemptions for real estate, personal property, and construction materials, with property tax incentives lasting up to 35 years for each phase. This project adds to a growing trend of data center developments in the Kansas City area, driven by increasing demand for information storage and processing due to advancements in artificial intelligence. Companies like Google and Meta have already begun constructing data centers in the region, attracted by affordable land, utilities, and favorable economic incentives. Fermi America partners with Texas Tech to build an 11 GW hyper-grid campus and bring nuclear energy to data centers in Texas Former Texas governor Rick Perry's company, Fermi America, is partnering with Texas Tech University to build the world’s largest data energy complex in Amarillo, Texas. Named the HyperGrid campus, the project will span 5,769 acres, combining nuclear, solar, gas, and battery energy sources. Expected to generate up to 11 gigawatts of power (enough for 8-10 million homes), the facility will also house 18 million square feet of AI capacity. The project is part of Perry's push for an American "nuclear power renaissance" and aims to address the energy challenges posed by global competition, particularly with China. Construction is underway, with power delivery anticipated by the end of 2026. The facility may also carry former President Trump’s name, pending Nuclear Regulatory Commission reviews. Tools & Solutions for Data Center Developers LandGate offers customized solutions for data center developers, enhancing site selection and project efficiency by utilizing advanced technology and comprehensive datasets. Learn more about how we’re addressing key challenges such as power availability, project siting, and the various solutions available.

The global pursuit of sustainability has led to a surge in renewable energy projects, offering a wealth of greenfield deployment opportunities. In this article, we will discuss greenfield meaning, opportunity, development, and deployment as well as how to utilize various tools to identify and take advantage of greenfield sites for renewable energy development. In the rapidly changing renewable energy landscape, developers equipped with the right tools gain a clear competitive edge. LandGate provides end-to-end solutions for renewable energy developers and beyond. Explore our platform and book a free demo with our team today. What is a Greenfield in Renewable Energy? Greenfield projects refer to initiatives that are built from the ground up on unused or underutilized land where there is no need to remodel or demolish an existing structure. The term 'greenfield' is derived from the idea of building on a green field, free from constraints or limitations. It’s a clean slate with strong growth potential, but it comes with considerable risk since there’s no existing data and every aspect of the project must be built from scratch. What are the Benefits of Greenfield Projects? Since Greenfield projects start from scratch, developers have the freedom and flexibility to design and implement innovative solutions. They can tailor the project according to the specific needs of the renewable energy source they're harnessing, be it solar, wind, or others. What are the Potential Risks of Greenfield Projects? However, Greenfield projects often involve more risks compared to brownfield projects. These include potential delays in obtaining necessary permits, environmental impact assessments, and possible resistance from local communities. Additionally, they often involves significant market entry costs due to high barriers to entry, strict government regulations that can impede foreign investment, and substantial fixed costs required to establish a new location from the ground up. However, with the proper tools, careful planning and stakeholder engagement, these hurdles can be overcome. What is the Difference Between a Brownfield and a Greenfield? In the renewable energy industry, the terms greenfield and brownfield describe different types of project sites. The key distinction lies in prior land use: greenfield development refers to construction or development on land that has never been previously developed. Greenfield Opportunities in Solar and Wind Energy Two of the most prevalent types of renewable energy sources where greenfield investment opportunities are abundant are solar and wind energy. Solar Energy Solar energy projects are becoming increasingly popular due to their scalability and the decreasing cost of solar panels. With vast areas of unused land globally, particularly in sun-rich regions, the potential for large-scale solar farms is enormous. These projects can be designed and oriented for maximum sun exposure, which would not be possible with brownfield sites that have existing structures. Wind Energy Similarly, wind energy offers significant greenfield opportunities. Open fields, hilltops, and coastal areas are ideal for wind farms. These locations often have strong and consistent wind flow, which makes them perfect for generating wind power. The freedom to strategically place wind turbines to optimize wind capture is another advantage of greenfield projects. The Future of Greenfield Renewable Energy Projects Greenfield projects represent a significant opportunity for the growth of renewable energy. As the world continues to shift towards sustainable practices, the importance of these projects will only increase. The flexibility, scalability, and potential for innovation that greenfield projects offer make them an exciting prospect for renewable energy developers and investors alike. With the increasing global commitment to reduce carbon emissions, the future for greenfield projects in renewable energy is promising. Governments around the world are setting ambitious renewable energy targets and providing incentives for greenfield renewable energy project development. Federal Tax Incentives: These credits apply to qualifying renewable energy projects and equipment, including the Renewable Electricity Production Tax. Financial Incentives through Green Banks: Green banks can bundle financial incentives to support various phases or aspects of energy efficiency and renewable energy deployment. For example, grants could be used for energy efficiency and conservation programs and projects community-wide, as well as renewable energy installations. New Government Incentives : To spur green spending, governments have rolled out new incentives through different types of financial mechanisms aimed at de-risking. Energy Communities: Certain federal incentives allow renewable energy developers to take advantage of additional incentives to develop projects in specific Energy Communities . Moreover, advances in technology are making renewable energy projects more efficient and cost-effective, further fueling the growth of greenfield opportunities. For instance, the development of more efficient solar cells and wind turbines, as well as advancements in energy storage solutions, are opening up new possibilities for renewable energy projects. LandGate's Tools for Solar Developers LandGate is the only platform providing actionable deals, reliable solar energy data, and comprehensive site analysis solutions. This includes: Accurate Parcel and Ownership Data: LandGate provides the most accurate parcel and ownership data , which can be crucial when identifying potential greenfield sites for renewable energy projects. Solar Energy Data & Site Analysis Solutions: The platform delivers actionable deals, quality solar energy data , and site analysis solutions. This means it can help developers understand the potential of a greenfield site for solar energy development. Marketplace for Public Landowners and Energy Developers: LandGate's marketplace connects public landowners with energy developers and investors seeking land to deploy ESG-oriented capital. This can facilitate the development of greenfield sites on private land and helps developers connect with property owners that have expressed interest in solar lease opportunities. PowerCapital Renewable Energy Solution: LandGate's PowerCapital enables solarn professionals to run economic engineering studies in minutes, access land leads and MLS listings, and manage projects. This tool can be particularly useful when assessing the feasibility and profitability of developing a greenfield site.

The data center sector is expanding rapidly. Continue reading as LandGate provides a concise summary of some of the major updates in the data center industry from the past week, featuring news from Cogent, Texas Critical Data Centers, Talen Energy & Amazon Web Services in Pennsylvania, NV5 in Georgia & Nevada, and Sabey Data Centers in Texas. Cogent converts over 24 Sprint sites to Edge Data Centers with over 160MW of capacity Cogent has converted 24 former Sprint technical sites into edge data centers, adding 8MW of capacity and bringing its total portfolio to 180 data centers with 211MW of installed power. This expansion is part of their strategy to utilize assets obtained from T-Mobile's sale of Sprint’s wireline business in 2022. Currently, 79 of their facilities function as edge data centers, while 101 serve as core centers. The company has also pivoted to offering 24 of its former Sprint properties on a wholesale basis, receiving multiple letters of intent from potential buyers or lessees. Cogent continues to invest in conversions amid strong demand and aims to sell excess capacity without impacting financial projections. Their Q1 2025 capital expenditures totaled $58.1 million. Financially, Cogent reported service revenues of $247 million in Q1 2025, reflecting slight declines from the previous quarter and year. Despite revenue dips, the company's accelerated conversion strategy aims to meet growing customer demand and optimize their real estate assets. Texas Critical Data Centers signs MoU for onsite gas generation to support a 250MW data center in Ector County, Texas Sharon AI and New Era Helium have signed a non-binding letter of intent (LOI) to acquire a 200-acre site in Ector County, Texas, for a 250MW net-zero energy AI and HPC data center. This joint venture aims to leverage advanced carbon capture and energy transition technologies to develop scalable, energy-efficient infrastructure near key resources like fiber optics and natural gas lines. The site acquisition is expected to be finalized within 90 days, with the initial phase of the project anticipated to go live in late 2026. Preparation is underway for a natural gas power plant and fiber connectivity, alongside discussions with hyperscalers and energy partners. Sharon AI, known for its high-performance computing and AI services, and New Era Helium, experienced in energy infrastructure, plan to create a cutting-edge facility to meet growing data center demands. Talen Energy and Amazon Web Services sign deal to power over 2500 MW to data centers in Pennsylvania Talen Energy and Amazon have entered a partnership to supply up to 1,920 megawatts of electricity from Talen's Susquehanna nuclear plant in Pennsylvania to Amazon Web Services (AWS) data centers. This long-term deal, lasting until 2042, ensures a steady revenue stream for Talen while fulfilling Amazon's need for carbon-free energy to power its AI and cloud operations. The collaboration also includes plans to explore building Small Modular Reactors and expanding the plant's output. This agreement reflects the rising electricity demand from data centers and AI technologies. Talen Energy’s shares jumped nearly 8% following the announcement. NV5 awarded $5 million to design critical, high voltage substations in Georgia and Nevada NV5, a leading provider of engineering and consulting solutions, has secured $5 million in contracts for substation design. These projects reflect NV5's expertise in critical infrastructure and its ability to deliver innovative engineering solutions. The contracts further strengthen the company's position in the energy sector while contributing to the modernization and reliability of power grids. Sabey Data Centers announce plans to construct 786 acre data center outside Austin, Texas Seattle-based Sabey Data Centers has proposed building a state-of-the-art data center on 786 acres in southern Hays County, near San Marcos, Texas. This would be the third data center planned in the area, a growing hub for data processing and artificial intelligence, with some facilities set to utilize power from a nearby natural gas plant. The proposal includes developing 184 acres for the facility while preserving 392 acres as open space and potentially creating a future neighborhood. The project has sparked opposition from local residents concerned about its impact on the environment, particularly water consumption, as data centers require significant resources for operations. Other nearby data center projects, including one from Denver-based CloudBurst Data Centers, have also faced community resistance. San Marcos City Council is set to vote on whether to negotiate a development agreement with Sabey on provisions such as annexation, planning code waivers, and infrastructure improvements. Sabey has previously built notable data centers, including a major facility in Round Rock that houses the Texas Advanced Computer Center’s new Horizon supercomputer. Tools & Solutions for Data Center Developers LandGate offers customized solutions for data center developers, enhancing site selection and project efficiency by utilizing advanced technology and comprehensive datasets. Learn more about how we’re addressing key challenges such as power availability and the solutions available.

The data center industry is growing swiftly. Read on as LandGate offers a brief overview of some significant updates from the past week in the data center sector, highlighting news from Ardent in Montana, TerraPower in Wyoming, Microsoft in Washington, Grindcap in Georgia, and Aligned Data Centers in Ohio. Ardent announces 596 acre data Center in Great Falls, Montana A proposed hyperscale data center  in Great Falls, known as Project Cardinal, could transform the local economy by creating significant job opportunities and boosting investments. Planned by national developer Ardent, the center would cover 569 acres near Malmstrom Air Force Base, with facilities to store and manage vast digital data. Once fully operational, it could provide 150-200 high-paying tech jobs and up to 2,000 construction jobs during its development phases. One key challenge remains in securing the necessary 600 megawatts of power, with approvals anticipated to take over a year. Brett Doney, CEO of the Great Falls Development Alliance, emphasized the potential benefits beyond jobs, including a strengthened tax base and local economic growth. Despite being in early planning stages, the project is seen as a promising opportunity to establish Great Falls as a growing tech hub. TerraPower receives $650M for a Natrium Nuclear Reactor to power data centers Bill Gates’ TerraPower has secured $650 million in new funding , with support from Nvidia’s NVentures, HD Hyundai, and Gates himself. This brings TerraPower's private financing total to over $1.4 billion, complemented by $2 billion in federal funding from the U.S. Department of Energy, for a combined $3.4 billion. The financing will accelerate the development of TerraPower's Natrium nuclear reactor, which incorporates innovative sodium cooling and molten salt heat storage technologies for enhanced safety and efficiency. The first Natrium reactor is being constructed at a retiring coal plant in Kemmerer, Wyoming, with plans for operation by 2030. Notable features include a scalable 345-megawatt reactor paired with a 1-gigawatt-hour thermal storage system to meet peak energy demands. TerraPower aims to position nuclear energy as a low-carbon, 24/7 power solution, particularly for energy-intensive AI and data infrastructures. Tech giants like Nvidia, Microsoft, and Amazon are increasingly exploring nuclear energy to power data centers, complementing renewable energy sources. TerraPower’s partnerships with global manufacturers, including HD Hyundai and Spain's ENSA, will aid in scaling its advanced nuclear technology globally. The project is seen as a pivotal step toward a new generation of clean, compact, and efficient nuclear energy, blending innovation with sustainability to meet rising global power demands. Chelan PUD signs deal to supply hydropower to Microsoft data center in Washington State Chelan PUD commissioners have approved a power contract  to supply a new Microsoft data center campus in Washington State. The agreement includes surplus hydropower at market-based pricing for up to 18 megawatts through December, with future energy sources undecided for the 2026-2040 period. Microsoft has invested $86.5 million in building the necessary infrastructure, including the Jumpoff Ridge substation. Chelan PUD’s large-load framework ensures reliability, compliance with carbon-free standards, and cost coverage by large-load customers like Microsoft. Grindcap gains county approval for a 108 MW campus outside Atlanta, Georgia on a previous cell tower site Grind Capital Group has received zoning approval for a 108MW hyperscale-class data center  campus in Marietta, Georgia, located at 1751 Bells Ferry Road. The 31-acre site, currently housing a cell tower and billboards, will be transformed into a 347,200 sq ft facility featuring two two-story buildings. DC-1 will cover 213,600 sq ft with a 48MW IT load, and DC-2 will comprise 133,600 sq ft with a 24MW IT load. The project includes closed-loop cooling systems, an on-site substation, and visual shielding through grading and tree planting. Near I-75 and major power lines, the campus offers excellent connectivity and energy access with plans to relocate the existing cell tower near the entrance. Aligned Data Centers purchase 200 acre power plant site for future data center development in Coshocton, Ohio Aligned Data Centers has purchased a portion of the Conesville Industrial Park from the Frontier Group of Companies. This acquisition  may lead to the development of a new data center, marking Aligned's second brownfield redevelopment project in Ohio. Known for transforming industrial sites into sustainable data centers, Aligned has completed similar projects in locations like Phoenix, Salt Lake City, and Chicago. The Conesville Industrial Park, a former American Electric Power plant site, has undergone significant remediation and infrastructure upgrades since its purchase by FGC in 2020. This 2,500-acre site offers opportunities for a wide range of industries, including automotive, energy, and logistics, and has received notable interest from developers. Tiffany Swigert, Executive Director of the Coshocton Port Authority, highlights the vital role data centers play in the modern digital economy, supporting essential services like telehealth, social media, and online business operations. Aligned’s potential development at Conesville underscores Coshocton’s readiness to thrive in the technology-driven era. Tools & Solutions for Data Center Developers LandGate offers customized solutions for data center developers, enhancing site selection and project efficiency by utilizing advanced technology and comprehensive datasets. Learn more about how we’re addressing key challenges such as power availability and the solutions available.

Electricity pricing plays a pivotal role in data center development , influencing operational costs, site selection, and investment strategies. For businesses embarking on new projects, understanding the key differences between wholesale and retail electricity pricing is essential to making informed decisions. Both pricing models  come with unique challenges and benefits, particularly in relation to energy efficiency, reliability, and overall costs. Wholesale Electricity Pricing for Data Centers Wholesale electricity prices  are what energy retailers pay when purchasing electricity directly from generators before it’s delivered to end-users like data centers. These prices are determined by competitive energy markets and are influenced by several key factors: Key Factors Influencing Wholesale Prices Supply and Demand Dynamics Wholesale electricity prices fluctuate constantly based on real-time market conditions. For example: High demand during peak hours or seasons can drive prices up. Oversupply from renewable energy sources like solar or wind during off-peak times can drive prices down. Fuel Costs The costs of fuels used in energy generation, such as natural gas, coal, or oil, have a direct impact on wholesale electricity prices. A spike in fuel prices leads to increased energy costs. Transmission Constraints Transmission bottlenecks within the grid can lead to localized price variations, especially under nodal pricing systems. Applications for Data Centers For large data centers, wholesale pricing presents an opportunity to reduce electricity costs significantly compared to retail rates. Many operators of hyperscale data centers choose to participate in wholesale electricity markets where they can: Partner directly with energy suppliers. Enter long-term power purchase agreements (PPAs) with renewable energy producers. Align operations with favorable market conditions, such as optimizing workloads during periods of low demand. However, accessing wholesale pricing requires significant expertise in energy markets and entails exposure to price volatility, which may require risk mitigation strategies like hedging. Retail Electricity Pricing for Data Centers Retail electricity pricing is the cost that end consumers, including small-to-midsized data centers, pay for their electricity usage. Retail prices include a wide range of charges beyond the wholesale electricity cost, such as: Components of Retail Pricing Transmission and Distribution (T&D) Costs: Covers the delivery of electricity via power lines, substations, and other infrastructure. Administrative and Operational Costs: Includes expenses like billing, customer service, and operational overhead for the utility or energy provider. Taxes and Regulatory Fees: Local or federal taxes and fees that fund public energy programs, grid development, and environmental initiatives. Profit Margins: Retail providers account for their profitability by adding a margin to the final price. Applications for Data Centers Data centers that rely on retail electricity benefit from predictable pricing structures and reduced complexity in managing their energy procurement. Some advantages include: Fixed or tiered pricing plans for better cost forecasting. Simplified billing processes. Access to grid services and energy stability provided by local utilities. Small-to-midsized data centers often lack the resources to manage wholesale market participation, making retail electricity the practical choice. Wholesale vs. Retail Pricing in Practice Understanding the distinctions between wholesale and retail pricing is crucial for making strategic decisions about energy procurement. Aspect Wholesale Pricing Retail Pricing Price Volatility High, subject to market dynamics Low, typically stable and predictable Cost Composition Excludes delivery and operational fees Includes T&D, operational costs, taxes Scalability Ideal for large-scale operations Suitable for smaller facilities Level of Expertise Required High Minimal                           | For hyperscale data centers that require vast amounts of energy and prioritize cost efficiency, wholesale pricing is often the optimal route. On the other hand, localized retail pricing offers simplicity and reliability for smaller facilities. Nodal and Zonal Pricing: A Closer Look at Wholesale Markets Wholesale electricity prices can be determined through nodal pricing  or zona l pricing sys tems, both of which have implications for data center development. Nodal Pricing Nodal pricing assigns specific electricity prices at grid connection points, based on factors like local generation costs, demand, and transmission constraints. This system provides granular data that can: Identify optimal locations for data center development. Highlight areas with lower electricity prices to reduce operational costs. Promote efficient use of transmission infrastructure. For example, in markets like PJM Interconnection and ERCOT in the U.S., nodal pricing has been widely adopted due to its accuracy and ability to reflect real-time grid conditions. Zonal Pricing Zonal pricing, on the other hand, simplifies pricing by assigning a single averaged rate to larger geographic areas. While easier to implement, this system lacks the granularity of nodal pricing and may result in less accurate price signals. Developers may miss opportunities to capitalize on cost advantages within specific grid nodes. Strategic Recommendations for Data Center Developers If you're considering a new data center project, here’s how to approach energy pricing as part of your strategy: Assess Your Energy Demand: Determine your data center's energy requirements and evaluate whether wholesale market participation is feasible based on your scale. Analyze Market Structures: Research the electricity market in your region to determine if it relies on nodal or zonal pricing, and use that insight to identify cost-efficient locations. Consider Long-Term Agreements: For large facilities, explore power purchase agreements (PPAs) or other long-term contracts that hedge against price volatility. Work with Experts: Whether transitioning to wholesale pricing or evaluating retail agreements, consulting with energy experts can help mitigate risks and maximize cost savings. Achieving Efficiency and Reliability with Energy Pricing for Data Center Development Understanding wholesale and retail electricity pricing is central for making informed decisions in data center development. By leveraging the cost-saving potential of wholesale markets or the stability offered by retail pricing, data center operators can align their energy procurement strategies with business goals. If you're ready to take the next step toward smarter energy planning for your data center, learn more about LandGate’s analytics platform  or book a demo  with our energy experts.

Data centers and fiber optic networks form the backbone of today’s rapidly advancing digital world . From powering cloud computing to enabling real-time communication and seamless digital transactions, these technologies are crucial to modern business operations, entertainment, and connectivity. What Are Data Centers and Fiber Optic Lines? Understanding Data Centers Data centers are centralized facilities that house essential systems, such as computer servers, storage devices, and networking equipment, used to store, process, and distribute vast amounts of data. They serve as the operational hub for businesses, government agencies, and service providers, ensuring seamless functionality for a range of digital processes and applications. With technological advancements like cloud computing, data centers are essential for scalability and efficiency in handling immense volumes of data. These facilities range in size and capability, from edge data centers designed for localized operations to massive hyperscale facilities  supporting global networks. What Are Fiber Optic Lines? Fiber optic lines use light to transmit data through thin strands of glass or plastic. Renowned for their speed and bandwidth capabilities, fiber optics allow rapid, reliable, and high-capacity communication over long distances. These cables have revolutionized global telecommunications by fueling the proliferation of high-speed internet, improving connectivity, and underpinning many critical data center operations. Fiber optic networks span over 800,000 route miles across the United States, supporting data centers in performing real-time data storage, transfer, and analysis. For major urban hubs such as New York, Los Angeles, and Chicago, fiber optic networks are integral to maintaining consistent, high-speed connectivity. The Perfect Pairing: How Data Centers and Fiber Optics Work Together Key Role of Fiber Optics in Data Centers Data centers cannot operate optimally without robust connectivity, and fiber optic lines provide the lifeline for transmitting massive volumes of information, often in real-time. Integrating this technology enables data centers to meet the increasing demand for low-latency, high-speed data flow. Here’s how this collaboration benefits both systems: Enhanced Speed and Efficiency:  Fiber optics transmit data at the speed of light, creating seamless communication between data centers, users, and other network nodes. Scalability:  High-capacity fiber infrastructure supports the expanding needs of data centers as demand for digital services grows. Global Reach:  Fiber optic networks facilitate interconnectivity between data centers across the globe, enabling international data exchange without interruption. By ensuring robust, scalable infrastructure, the symbiosis between these two technologies is indispensable for industries ranging from finance and healthcare to entertainment and e-commerce. Current Landscape of Data Centers and Fiber Optic Networks Eye-Opening Statistics The U.S. leads the world with more than 2,500 data centers as of 2024, distributed across key regions such as Northern Virginia, Dallas, and Silicon Valley. These facilities support business needs ranging from cloud storage to artificial intelligence workflows. Complementing these data centers is a vast network of over 800,000 miles of fiber optic cables, facilitating unparalleled data transmission and faster decision-making processes across industries. Role of White Space in Data Centers White space refers to the portion of a data center’s infrastructure left intentionally vacant for future IT equipment expansion. By designing facilities with white space, operators ensure scalability to meet the growing technological demand without structural overhauls. Why Data Centers and Fiber Optics Are Game-Changers Support for Industry Growth:  Fiber optics empowers sectors like finance, healthcare, and logistics with faster data processing and transfer capabilities, while data centers provide secure storage and processing power. Efficiency and Cost-Effectiveness:  Together, they reduce latency and operational costs, improving the overall user experience and profitability for businesses. Adaptation to Emerging Trends:  With the advent of 5G technologies, fiber-enabled data centers process far more data to match the explosive growth of IoT and connected devices. Future Trends in Data Centers and Fiber Optics The Rise of Hyperscale Data Centers Fueled by demands for cloud computing and analytics, hyperscale data centers will dominate the future. These facilities deliver massive data-processing power while leveraging efficient operations to serve industries on a global scale. Sustainability and Green Technologies Sustainability will be at the forefront of data center innovation. Renewable energy sources  like solar and wind, as well as advanced cooling methods, will drive eco-friendly operations, reducing carbon footprints. Growth Potential in Numbers The global data center market is projected to grow from $48.9 billion in 2020 to $105.6 billion by 2026. Data center construction spending in the U.S. is forecasted to exceed $22 billion by 2025. Meanwhile, the revenue generated by data centers in 2024 alone is expected to reach $340.20 billion worldwide. These figures underscore the importance of adopting cutting-edge solutions in both data management and telecommunications. Accessing & Interpreting Fiber Optic Data for Data Center Developers Harnessing the full potential of data centers and fiber optic networks is no small feat. Platforms like LandGate provide unparalleled access to vital industry data, offering key insights into over 2,500 data centers and extensive fiber optic networks in user-friendly formats. With LandGate’s tools, professionals across real estate, energy, and technology can unlock massive opportunities while streamlining due diligence and decision-making efforts. These Fiber Optic & Data Center Infrastructure Data Layers Allow Developers to: Connect with exclusive property leads tailored to data center and fiber optic developments. Access detailed information on infrastructure like operator details, white space availability, and power capacity. Gain an edge in a competitive market with accurate, actionable insights. Building on Innovation and Connectivity Data centers and fiber optics aren’t just the backbone of today’s digital economy; they represent an incredible opportunity for innovation and growth. Their integration enables industries to operate more efficiently, prepare for unprecedented demand, and explore greener, more sustainable technologies as they evolve. Interested in learning more? Contact LandGate  or book a demo  and discover how the data solutions can empower your business and maximize your ventures.

The data center industry is moving and growing at an incredible speed. Read on as LandGate breaks down and summarizes some of the top data center industry updates from the past week including news from Vantage Data Centers, Bit Digital and Amazon Web Services in NC, and Digital Realty in GA, US Signal in IA and MI. Vantage Data Centers acquired $5 billion in green loan financing to meet continued demand Vantage Data Centers has secured $5 billion  in additional green loan financing to support the growing demand for its North America platform. This new funding includes: $2.25 billion for New Albany Campus Construction Located in New Albany, Ohio, this 70-acre campus will feature three hyperscale data centers with a total capacity of 192MW. The first facility is expected to be operational by December 2025. This marks one of the first construction loans in the industry to achieve private investment-grade ratings. $2.75 billion added to an existing $3 billion green loan This increases the total corporate credit facility to $5.75 billion. The funding supports further development of data centers and land acquisitions for future expansion. Vantage’s financing efforts under its Green Finance Framework highlight a commitment to sustainable operations and rapid scalability. These innovative funding solutions reinforce Vantage’s ability to meet the rising demand for energy-efficient and reliable digital infrastructure across multiple markets. Bit Digital announces 96 acre data center in Madison, North Carolina Bit Digital Inc. purchased a 96-acre site  in Madison, North Carolina, for $45 million using its cash reserves ($61.3 million as of March 2025). The site will be converted into an AI-focused data center campus led by its high-performance computing division, WhiteFiber. The company secured 99 MW of power from Duke Energy, with 24 MW expected online by September 2025. The initial phase will be operational by the end of 2025, and the facility has the potential to scale up to 200 MW, making it capable of supporting AI inference operations. Located in North Carolina’s Piedmont Triad, the site is close to major urban centers and existing hyperscale operators, boosting its attractiveness to tenants. The CEO emphasized the site's role in addressing growing AI demand and creating long-term value. The project, with an investment exceeding $1 billion and over 60 projected jobs, is expected to benefit the local economy. WhiteFiber is in talks with multiple potential tenants and has a non-binding agreement with one party. Digital Realty proposes a 200 MW data center facility in Atlanta A significant data center project  by Digital Realty is proposed for the former Fort Gillem Army depot in Forest Park, south of Atlanta. The project plans a 1.9 million-square-foot facility and represents an investment of over $2 billion. With its 200-megawatt capacity, the data center aims to serve as a vital digital infrastructure connected to Digital Realty's downtown Atlanta hub. Fort Gillem, originally established as an Army depot in 1941, was closed in 2011 and much of its property transitioned to private sector use, including logistics facilities and soundstages. The military retained about 257 acres for forensic labs and branch units. Atlanta has become a top location for data center development in the U.S., surpassing Northern Virginia in 2024 as the leading market for leasing activity, with 706 megawatts of net absorption. The city's data center boom reflects its growing role as a critical hub for digital infrastructure to support businesses and global communications. US Signal invests $200 million into 1000 miles of fiber optic infrastructure and existing facilities in Des Moines and Detroit US Signal has committed $200 million  to expanding its national infrastructure footprint, with significant investments in its Detroit Metro and Des Moines data centers, as well as the addition of over 1,000 miles of new ultra-dense fiber and conduit. This initiative includes increasing power capacity by 3 MW in Detroit Metro and 6 MW in Des Moines, creating highly scalable and power-dense facilities tailored for hyperscalers, cloud providers, and enterprises handling AI and edge workloads. The expanded fiber network will serve as a high-capacity backbone capable of supporting AI, cloud applications, and real-time edge computing at scale, addressing the current infrastructure gaps in network density and low-latency performance across the US. US Signal's strategy also features micro-edge data centers for enhanced edge-to-core performance, positioning the company to meet the increasing demand for AI and cloud connectivity. CEO Daniel Watts emphasized the company's vision to create a future-ready digital infrastructure that caters to evolving enterprise needs. Supported by Igneo Infrastructure Partners, these developments aim to establish US Signal as a leader in scalable, energy-efficient, and secure infrastructure solutions for enterprises and hyperscale providers. Amazon Web Services announces $10 billion investment into North Carolina to expand AI infrastructure Amazon is investing $10 billion in North Carolina to expand its cloud computing  and AI infrastructure. This project will create at least 500 high-skilled jobs, support thousands in the supply chain, and strengthen the state’s position as a technology innovation hub. Amazon has committed to workforce development through educational programs, such as data center technician training and STEM initiatives for K-12 schools. Additionally, the company is launching a $150,000 Richmond County Community Fund to support local projects in STEM education, sustainability, and economic development. This expansion builds on Amazon's previous $12 billion investment in North Carolina, which has contributed $13.1 billion to the state’s GDP since 2010. Tools & Solutions for Data Center Developers LandGate provides tailored solutions for data center developers, helping optimize site selection and project efficiency by leveraging cutting-edge technology and extensive datasets. Learn more about how we’re addressing key challenges such as power availability and the solutions available.

The electric vehicle (EV) revolution is growing rapidly worldwide, fueled by technological innovation, environmental imperatives, and shifting consumer demands. Yet, even as EV momentum surges, industry stakeholders are grappling with what the future will look like under competing regulatory and political visions. Recently, Tesla CEO Elon Musk and President Donald Trump have found themselves on opposing sides of the debate regarding EV mandates. For EV infrastructure developers, understanding this evolving landscape is more critical than ever. The EV Mandate Debate Unpacked Elon Musk’s Push for Aggressive EV Mandates Elon Musk, known for his visionary approach to EVs and energy sustainability, has long advocated for stronger EV mandates to accelerate adoption. His arguments center on the need for government policies that include: Incentives for EV manufacturers and buyers. Stricter vehicle emissions standards. Support for renewable energy infrastructure directly tied to EVs. His vision is to create an ecosystem where EVs are not just a sustainable alternative but the clear superior choice. Musk has suggested that aggressive mandates will spur innovation, improve economies of scale, and provide a competitive edge for the U.S. in the global EV race. President Trump’s Opposition to Mandates President Donald Trump, on the other hand, has expressed opposition to EV mandates, viewing them as government overreach that could hurt the economy, particularly in traditional fossil fuel sectors. Trump has called for policies that: Remove strict emissions regulations. Support oil and gas industry growth. Focus on consumer choice without regulatory "coercion." His stance emphasizes economic growth through less regulatory interference, arguing that market forces—not mandates—should dictate EV adoption. What Does This Mean for EV Infrastructure Developers? For developers working on EV infrastructure projects, this debate highlights two competing visions for the future, each with far-reaching implications: If Musk's vision prevails , expect a rapid expansion of EV infrastructure requirements to meet surging demand. This means more charging stations, collaborations for renewable energy integration, and federal funding opportunities. If Trump’s perspective gains traction,  the pace of EV adoption may slow, and developers may need to pivot strategies to account for reduced government incentives and less regulatory pressure. How EV Mandates Shape Infrastructure Needs Charging Station Expansion Currently, the U.S. has over 145,000 public EV charging ports across roughly 53,000 stations. While this represents significant progress, aggressive mandates could demand exponential growth in EV charging locations to meet consumer expectations and state/federal requirements. Developers must prioritize high-demand areas, such as urban centers and interstate highways, to stay competitive. Integration with Renewable Energy To align with sustainability goals, future EV infrastructure will increasingly rely on renewable power sources like solar and wind, rather than fossil fuels. This shift creates potential regulatory challenges, such as ensuring compliance with stricter environmental regulations and securing sufficient land for development. Scalability for Rural and Underserved Areas EV infrastructure growth must also address rural and underserved regions, which often lack the investment and resources to expand EV networks. Strong federal mandates could incentivize developing these areas, presenting both challenges and opportunities for infrastructure developers. How LandGate Empowers EV Infrastructure Developers Amid shifting policies and market dynamics, having access to accurate, actionable data is crucial for developers. LandGate offers a comprehensive platform designed to support utility-scale EV projects by providing critical insights tailored to your needs. Here’s how: Advanced Site Assessment Tools LandGate helps developers identify high-potential sites for EV infrastructure by analyzing: Traffic patterns and vehicle densities. Proximity to existing energy sources. Zoning and regulatory requirements. Renewable Energy Integration Our platform seamlessly combines EV infrastructure data with renewable energy analysis. This ensures developers can plan charging stations that align with solar and wind projects to support decarbonization goals. Regulatory Navigation LandGate provides updates and tools to manage compliance with changing rules, helping you mitigate regulatory risks and avoid delays. Exclusive EV Market Data Our EV market insights include projections on vehicle adoption rates, demand for charging stations, and investor sentiment. These features empower developers to refine business strategies and achieve higher ROI. A Path Forward for Developers The tug-of-war between Musk’s and Trump’s perspectives underscores the unpredictable landscape developers operate within. To succeed, industry stakeholders must: Stay informed about policy shifts at federal and state levels. Align projects with both government initiatives and market demand. Use data-driven insights to identify opportunities and mitigate risks. The LandGate platform exists to support developers in navigating these challenges effectively. By equipping you with cutting-edge data and tools, we enable smarter, faster decisions that align with the future of EV infrastructure. Turn Policy Uncertainty into Opportunity Whether the EV market accelerates under stringent mandates or evolves more organically, one thing is certain—there’s no slowing down the electric revolution. For developers equipped with the right tools and insights, policy changes are not obstacles but opportunities to lead the charge. Take the first step in transforming your EV infrastructure strategy. Learn more  about LandGate’s EV infrastructure data tools or schedule a demo  today and build for the future.

The accelerating shift towards renewable energy paired with the exponential growth of data-intensive industries is shaping a new era for infrastructure development. Solar farms, once valued solely for their contribution to sustainable power, are now becoming pivotal elements in supporting data center expansions. These two sectors are converging, each fueling the other's advancement as enterprises and governments focus on sustainability and energy efficiency. Let's explore how the best locations for solar energy  and data center growth  are intertwined in 2025 and highlights essential siting considerations for maximizing efficiency and ROI for both solar projects and data infrastructure . Solar Farms as the Backbone for Data Centers The rise of cloud computing, AI-driven technologies, and the Internet of Things (IoT) has created a growing demand for data centers. These facilities require enormous amounts of energy, and the emphasis on sustainability has positioned solar farms as an ideal solution. By utilizing solar energy, enterprises can power data centers cleanly while also enhancing their ESG (environmental, social, and governance) goals. In this era, solar farms located near data centers are not just a trend but a necessity. Proximity informs the best locations for solar and eliminates the inefficiencies of traditional energy transmission and reduces costs, benefiting both the environment and the global economy. Key benefits of integrating solar power with data centers include: Lower operational costs  thanks to renewable energy sources. Enhanced grid stability  by reducing reliance on traditional power plants. Alignment with sustainability goals , bolstering a company’s public image. Tax incentives and policies  encouraging renewable integration. What Makes the Best Locations for Solar in 2025? Selecting the right site for solar farm development requires a thorough understanding of factors that extend beyond just sunshine. With 2025’s technological advancements and the need for dual-use infrastructure (solar farms supporting data centers), developers must consider several new-age criteria. Innovation in Land Requirements Solar farms supporting utility-scale operations require expansive yet accessible land. These sites should ideally fulfill the following: Proximity to data centers and grid infrastructure  to minimize transmission inefficiencies. Advanced land analysis  to avoid areas prone to environmental risks. Optimization-ready layouts  that maximize both solar panel installation and future scalability. LandGate’s Analysis tool  continues to revolutionize site selection, providing data-rich insights tailored to modern solar projects. Multi-Use Land and New Opportunities Developers are increasingly targeting sites that offer dual functionality. Examples include combining solar farms with agricultural land (agrivoltaics) or brownfield redevelopment—which creates new life for previously unusable locations. Additionally, siting on land near expanding enterprise data centers brings logistical ease and amplifies energy efficiency, offering a competitive edge. Collaborating with key stakeholders ensures both industries benefit. Top Locations for Solar Development in the Data-Driven Age The transition to clean energy powers a large part of the global energy mix, but in 2025, some states in the U.S. are leading the charge by capitalizing on policies, workforce readiness, and infrastructural accessibility. The top locations for solar farms also offer favorable conditions for adjacent data infrastructures: California Why it’s a leader: Ample sunshine year-round. Robust state policies supporting renewable energy adoption. Ideal for housing data centers that require clean and abundant power. California  is home to some of the largest solar farms globally, including the Solar Star and Ivanpah facilities, now integrated with several data center power grids . Texas Why it’s booming: Massive open flat plains for utility-scale solar deployments. Strong incentives combined with an innovation-driven energy sector. One of the most prominent hubs  for data center developments in the U.S. Read more about the Texas solar trend. Florida Why it’s advancing: Ideal climate and expansive tracts for optimized solar arrays. Supportive policy framework encouraging green energy investments. Growing ecosystem for enterprise technology infrastructure. Florida’s push toward sustainability and burgeoning data center developmen t aligns seamlessly with clean-energy-powered data facility expansions. Arizona and the Emerging Desert Economy Why it’s a standout: Desert terrain ensures maximum solar efficiency. New developments target grid connections optimized for data centers. Wide support for renewable integrations that meet enterprise sustainability standards. By balancing solar energy’s potential with technological infrastructure needs, Arizona  epitomizes modern renewable innovation. Supporting Technology and Tools for Site Development To identify opportunities that meet these hybrid solar-data center needs, advanced GIS tools, predictive analytics, and AI come into play. Technologies like LandGate’s Solar PowerVal  now assess key factors including transmission pathways, land suitability, utility load balancing, and incentives available regionally. Essential Features Developers Need: Grid proximity analysis:  Ensures quick assessments of interconnection feasibility for data centers and solar farms. Ownership transparency:  Facilitates partnerships through tools like PowerLeads, expediting the negotiation process. Market forecasting models:  Minimize financial risks by identifying regions with rising enterprise demands in energy. Solar Energy and Data Centers The Future Foundation Integrating solar energy with enterprise data centers isn’t a passing trend but a strategy for building long-term resilience in the digital age. By evaluating solar sites from a dual-purpose perspective that balances ESG alignment with technological growth, developers can unlock new levels of efficiency and profitability. Learn how LandGate’s innovative solutions  can connect your renewable project to the cutting-edge tech hubs leading the world in 2025.

The data center industry is moving and growing at incredible speeds. Read on as LandGate breaks down and summarizes some of the top data center industry updates from the past week including news from Amazon Web Services in MN, Oracle and Newmark in TX, American Tower in NC, and DataBank in NY. Amazon Web Services Suspends Data Center Development in Becker, MN Amazon has paused plans for a large data center in Becker, Minnesota, citing uncertainties around costs, regulations, and timelines. The tech giant purchased 350 acres for the project in 2024 but is now reallocating resources to focus on quicker-to-execute projects. Becker city officials and Xcel Energy, which owns the adjacent Sherco coal plant slated for closure, remain optimistic about attracting new businesses to the area. The move coincides with legislative debates in Minnesota on additional regulations for data centers, including the possible elimination of a sales tax exemption on electricity. Lawmakers are divided on whether tax incentives should continue for major corporations like Amazon, balancing economic benefits with fiscal responsibility. Some industry leaders worry these changes may deter future investments in the state. Source: MPR News Oracle to buy $40B of Nvidia’s chips for Open AI’s data center in Albiene, Texas Oracle is investing $40 billion to purchase 400,000 high-performance Nvidia GB200 chips to power OpenAI's new AI-focused data center in Abilene, Texas. Part of the US Stargate Project, this initiative aims to strengthen America's position in the global AI landscape. Oracle will lease the site for 15 years, with the data center expected to be fully operational by mid-next year. The project has received significant financial backing, including $9.6 billion in loans from JPMorgan and $5 billion from Crusoe and Blue Owl Capital. For Oracle, this is a strategic move to bolster its AI and cloud offerings, challenging leaders such as Microsoft, Amazon, and Google. Additionally, Oracle, OpenAI, and Nvidia are involved in a similar AI data center project in the UAE, expected to launch in 2026. Source: NY Post Newmark facilitates $7.1B loan to help construct Project StarGate’s 1.2 GW data center in Albiene, Texas Newmark Group, Inc., a renowned commercial real estate advisor, has successfully arranged a $7.1 billion construction loan for the second phase of a $15 billion AI data center project in Abilene, Texas. The project, a collaboration between Blue Owl Capital, Crusoe, and Primary Digital Infrastructure, will deliver a groundbreaking 1.2-gigawatt AI data center consisting of six new buildings, set to be operational by mid-2026. The funding, led by J.P. Morgan, underlines the critical role of robust capital solutions in advancing sustainable and efficient digital infrastructure to support next-generation technologies. This collaboration is a milestone in the evolution of hyperscale data centers, showcasing innovative approaches to energy-efficient and high-performing computing facilities. Source: Newmark American Tower opens up Edge data center in North Carolina American Tower recently inaugurated its new edge data center in Raleigh, North Carolina, located in the heart of the Research Triangle region. This facility addresses the rising demand for low-latency, reliable infrastructure to support advanced technologies, including AI, hybrid cloud computing, and IoT. Positioned at the base of an American Tower cellular site, this data center uniquely aligns wireless and wireline capabilities, offering enhanced connectivity to mobile network operators and cloud providers. With over 149,000 communication sites globally, American Tower plans for future expansion with more than 1,000 potential edge data center locations. Source: American Tower DataBank announces 20MW data center in Orangeburg, New York DataBank has officially inaugurated its state-of-the-art LGA3 data center in Orangeburg, NY, designed to meet the growing demand for secure and scalable infrastructure. A critical hub for AI and high-performance computing, the facility offers high-density power, low-latency connectivity, and operational resilience. Located just 30 miles from Manhattan, this advanced data center serves as a key component of New York's "Empire AI" initiative. The facility has already attracted industry-leading clients, including CoreWeave, and aims to strengthen the digital backbone for enterprise businesses. DataBank’s CEO, Raul Martynek, emphasized the company's commitment to supporting local communities and building partnerships, as plans for future expansions, such as LGA4, are underway. With its innovative capabilities, LGA3 positions DataBank as a leader in advanced infrastructure solutions. Source: DataBank Tools & Solutions for Data Center Developers LandGate provides tailored solutions for data center developers, helping optimize site selection and project efficiency by leveraging cutting-edge technology and extensive datasets. Learn more about how we’re addressing key challenges such as power availability and the solutions available.

Embarking on energy or data center projects of a grand scale requires meticulous attention to detail, especially when it comes to understanding off-take and injection power capacity. These pivotal calculations are not mere numbers but crucial determinants of how power can seamlessly flow through the grid or be utilized on-site, all without pushing infrastructure boundaries to their limits. However, for many in the field, the intricate web of available capacity calculations can seem daunting. This is where automated reporting becomes a game-changer, simplifying the process and providing clarity amidst complexity. Join us as we delve into the transformative impact of automated reporting on off-take and injection power capacity studies, guiding developers through the maze of energy planning with ease and precision. What is Injection Capacity? Injection capacity, or available transfer capacity (ATC) refers to the maximum additional power that can be introduced into a network through a substation without breaching grid limitations. This capacity is crucial for developers of generation projects to consider, as surpassing it could necessitate funding costly network enhancements. Estimating these potential upgrade expenses is facilitated by platforms like LandGate, which also offer detailed insights on multiple transfer constraints per substation. What is Offtake Capacity? "Offtake Capacity" refers to the maximum amount of electricity that can be reliably supplied from the power grid at a particular connection point, especially crucial for high-demand facilities like data centers and crypto mining operations. This measure is vital for such projects because it ensures that they can access the necessary power without interruptions. Since these energy-intensive developments are usually not required to finance network upgrades, any lag in upgrading the network can delay their connection schedules. Therefore, securing adequate Offtake Capacity is critical for the successful and timely completion of these projects. How Are These Capacity Values Calculated? Determining the Available Transfer and Offtake Capacity nationwide involves a detailed and intricate process. This begins with creating a comprehensive map of the transmission network, covering substations, transmission lines, transformers, and other key components. Each Independent System Operator (ISO) or Regional Transmission Organization (RTO) establishes unique load demand and generation scenarios for several future years. At LandGate, our power engineers execute advanced simulations to assess both Available Transfer and Offtake Capacity Data . These simulations consider potential contingencies to ensure system stability, even when unexpected incidents like line outages or generator failures occur. Ultimately, these calculations produce two separate values: Injection Capacity, or ATC: This represents the maximum additional power that can be safely transferred between different areas of the grid without violating operational constraints. Available Offtake Capacity:  This value indicates the maximum load that can be reliably supported at each interconnection point on the grid, ensuring the system can handle increased demand without compromising reliability. LandGate has the amazing capability to perform a screening study to interconnect generation or load with a click of a button. The output of which is an excel spreadsheet that identifies the system limitations and network upgrades as the project increases in size. Although this is full of information it takes some getting used to mentally processing the information. Below is an example of one of these tables: Now we have created an auto report. The report not only has this analysis but also has the interconnection queue information in the same county and a graph of the network upgrades to make it easier to identify optimal project sizing. Example: Automated reporting is changing the game. By leveraging technology to streamline complex calculations, automated tools bring efficiency, precision, and outcomes that traditional methods simply cannot match.  These tools integrate seamlessly with robust data platforms and monitoring systems, allowing decision-makers to access real-time insights, predictive analytics, and compliance reporting with the click of a button. Why Manual Reporting Falls Short Time-Intensive Processes Manually calculating off-take and injection capacity requires a large allocation of time and resources. Every data point needs validation, consolidation, and cross-referencing. Over time, as variables become more complex, such as fluctuating energy prices or sudden spikes in consumption, manual processes slow decision-making. Increased Risk of Error Even the most meticulous professionals are prone to occasional miscalculations when handling large datasets manually. Errors in key metrics like capacity levels could lead to underutilized resources or unforeseen logistical challenges. Unfortunately, even minor mistakes can cascade into costly consequences in high-stakes projects. Limited Frequency of Updates Manual reporting is often performed at longer intervals, hindering the ability to monitor real-time changes in energy flows. For dynamic projects, this creates a lag between issue identification and resolution, limiting proactive decision-making. Looking Ahead to the Future of Automated Capacity Reporting The transition to automated reporting is no longer optional for organizations that prioritize accuracy, speed, and scalability. As projects grow in complexity, automation becomes essential in harnessing actionable insights from an ocean of data. This isn’t just about efficiency. It’s about unlocking opportunities, maintaining competitive advantage, and gearing your operations for future growth. Ready to take the leap toward streamlined energy and data management? Reach out to our dedicated energy data team to discuss how automated reporting can transform your next large-scale project.

With the data center market demand surging, driven by AI workloads, cloud computing, and an increase in hyperscale projects, the prevalence that data centers hold in our current global economy is paramount.  As businesses, governments and data center developers increasingly rely on data-intensive operations, scalable, reliable, and energy-efficient infrastructure has become immensely prevalent. Considering the monumental impact that data centers have on energy consumption, real estate, and investment strategies all across the world, an increase in the precision of data center planning, strategic site evaluation, and efficient resource allocation is necessary to meet technological and economic demands and cultural shifts within our markets. Leasing rates have become critical factors within this market, influencing investment decisions and shifts in profitability frameworks across data center developers and colocation tenants. LandGate is proud to include exclusive data center lease rates across its data center site selection and due diligence reports.  Leveraging our own database and awareness of the market, LandGate is also able to provide information about parcel costs, informing site selectors about the history of the parcels chosen for development, allowing our users to make highly informed decisions about their next project.  Leasing rates are supplementary to digital infrastructure developments, each change reflected in the subsequent alteration in price for colocation or to lease the data center itself. They serve as key benchmarks to evaluate market viability, site selection, and capital allocation, allowing developers to scale operations and tenants to understand infrastructure capacities accordingly. In a market that is defined by land scarcity, rising construction costs, zoning regulations, and grid constraints, the need for leasing rates helps developers and tenants alike to navigate the future of digital infrastructure. LandGate’s exclusive state lease estimates and colocation averages allow developers and data center consumers to stay on top of the market.  On the site selection side, data center developers can use the lease rate estimates to evaluate their cost margins, allowing companies to evaluate recurring operational expenditures and cash-flow analyses along with what more can be done to attract investment. Additionally, companies interested in data center space can use these rates to understand more about the quality of the data center. Centers with higher security systems, refined redundancy infrastructures and cooling mechanisms, increasing traffic, and reduced downtime will have subsequent lease rates. Additionally, in high cost areas, competition and quality will be reflected within the available rack space and leasing information.  LandGate’s analytical resources have carefully curated lease rate estimates in accordance with surrounding infrastructure, security compliances, grid costs, and much more to ensure an efficient and accurate data center report, leveraging data across our own platform. To view lease rate estimates, due diligence reporting , and site selection, book a demo with our team.